The Azure Kinect represents the latest generation of Microsoft Kinect depth cameras. Of interest in this article is the depth and spatial accuracy of the Azure Kinect and how it compares to its predecessor, the Kinect v2. In one experiment, the two sensors are used to capture a planar whiteboard at 15 locations in a grid pattern with laser scanner data serving as ground truth. A set of histograms reveals the temporal-based random depth error inherent in each Kinect. Additionally, a two-dimensional cone of accuracy illustrates the systematic spatial error. At distances greater than 2.5 m, we find the Azure Kinect to have improved accuracy in both spatial and temporal domains as compared to the Kinect v2, while for distances less than 2.5 m, ...
Recent technological advancements have made active imaging sensors popular for 3D modelling and moti...
Eight depth cameras varying in operational principle (stereoscopy: ZED, ZED2, OAK-D; IR active stere...
Eight depth cameras varying in operational principle (stereoscopy: ZED, ZED2, OAK-D; IR active stere...
Scene's 3D modelling, gesture recognition and motion tracking are fields in rapid and continuous dev...
The Azure Kinect, the successor of Kinect v1 and Kinect v2, is a depth sensor. In this paper we eval...
The Microsoft Kinect sensor, a popular gaming console, is widely used in a large number of applicati...
In recent years, the videogame industry has been characterized by a great boost in gesture recogniti...
Microsoft Kinect had a key role in the development of con-sumer depth sensors being the device that ...
Background: Depth sensor–based motion analysis systems are of interest to researchers with low cost,...
This paper presents an investigation of the geometric quality of depth data obtained by the Kinect s...
RGB-D cameras, also known as range imaging cameras, are a recent generation of sensors. As they are ...
RGB-D cameras, also known as range imaging cameras, are a recent generation of sensors. As they are ...
The stochastic error characteristics of the Kinect sensing device are presented for each axis direct...
Consumer-grade range cameras such as the Kinect sensor have the potential to be used in mapping appl...
Microsoft Kinect sensor has been widely used in many applications since the launch of its first vers...
Recent technological advancements have made active imaging sensors popular for 3D modelling and moti...
Eight depth cameras varying in operational principle (stereoscopy: ZED, ZED2, OAK-D; IR active stere...
Eight depth cameras varying in operational principle (stereoscopy: ZED, ZED2, OAK-D; IR active stere...
Scene's 3D modelling, gesture recognition and motion tracking are fields in rapid and continuous dev...
The Azure Kinect, the successor of Kinect v1 and Kinect v2, is a depth sensor. In this paper we eval...
The Microsoft Kinect sensor, a popular gaming console, is widely used in a large number of applicati...
In recent years, the videogame industry has been characterized by a great boost in gesture recogniti...
Microsoft Kinect had a key role in the development of con-sumer depth sensors being the device that ...
Background: Depth sensor–based motion analysis systems are of interest to researchers with low cost,...
This paper presents an investigation of the geometric quality of depth data obtained by the Kinect s...
RGB-D cameras, also known as range imaging cameras, are a recent generation of sensors. As they are ...
RGB-D cameras, also known as range imaging cameras, are a recent generation of sensors. As they are ...
The stochastic error characteristics of the Kinect sensing device are presented for each axis direct...
Consumer-grade range cameras such as the Kinect sensor have the potential to be used in mapping appl...
Microsoft Kinect sensor has been widely used in many applications since the launch of its first vers...
Recent technological advancements have made active imaging sensors popular for 3D modelling and moti...
Eight depth cameras varying in operational principle (stereoscopy: ZED, ZED2, OAK-D; IR active stere...
Eight depth cameras varying in operational principle (stereoscopy: ZED, ZED2, OAK-D; IR active stere...